Tag: Applied Chemistry Award

Kiranmai Nayani | Chemistry | Research Excellence Award

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Assist. Prof. Dr. Kiranmai Nayani | Chemistry | Research Excellence Award

CSIR-Indian Institute of Chemical Technology (IICT) | India

Dr. Kiranmai Nayani is an accomplished synthetic organic chemist with extensive research experience in peptide chemistry, asymmetric catalysis, natural product synthesis, and process development for pharmaceutically relevant molecules. She earned her Ph.D. in Synthetic Organic Chemistry from CSIR–IICT, Hyderabad (2005–2010) under the supervision of Dr. Srivari Chandrasekhar, receiving the prestigious Eli Lilly Asia Outstanding Thesis Award (2010). She holds an M.Sc. in Organic Chemistry with Gold Medal from NIT Warangal, a B.Ed. (Institute Topper), and a B.Sc. with Distinction. Dr. Kiranmai currently serves as Senior Scientist at CSIR-IICT, following earlier roles including Project Scientist-III, WOS-A Principal Investigator (DST), Senior Research Associate (CSIR Pool Scientist), Postdoctoral Fellow at Université Paris Descartes (France), and industry positions at Chemveda Life Sciences, Sai Advantium Pharma, and Dr. Reddy’s Laboratories. Her research contributions span organic synthesis, asymmetric dearomatization, foldamers, peptidomimetics, functional peptides, radical cascade reactions, Piancatelli rearrangements, and late-stage functionalization. She has significantly contributed to the synthesis of antimicrobial peptides, including scalable routes to TLR7/8 agonists used as adjuvants in Covaxin, the antiviral drug Nirmatrelvir, and peptide drugs like Dalargin and Plitidepsin.

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Featured Publications

Rasha Abbas | Chemistry | Research Excellence Award

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Assist. Prof. Dr. Rasha Abbas | Chemistry | Research Excellence Award

Al –Baha University | Sudan

Dr. Rasha Khalid Abbas Ibrahim is an accomplished biochemist and academic with extensive experience in teaching, research, and scientific leadership across Sudan and the Kingdom of Saudi Arabia. She holds a Bachelor’s and Master’s degree in Biochemistry and Food Science from the University of Khartoum, followed by a Ph.D. in Biochemistry from the University of Juba, where her doctoral research focused on medicinal and aromatic plants, examining the influence of soil, storage, and maturity on the chemical and toxicological properties of Hibiscus sabdariffa using advanced HPLC methodologies. Her master’s work similarly contributed to understanding the essential oil chemistry of Cymbopogon proximus under varying environmental conditions. Dr. Ibrahim has built a strong research profile with more than 16 completed projects, 2 ongoing projects, and over 40 supervised student studies across biochemistry and food science. She has authored numerous peer-reviewed publications addressing antimicrobial activity, phytochemical characterization, nutritional analysis, and the biochemical properties of medicinal plants and natural products. Her studies on Moringa oleifera, Roselle, Lepidium sativum, flaxseed oil, and essential oils have contributed valuable insights to food safety, public health, and the therapeutic potential of bioactive compounds. Several of her works appear in reputable journals such as Applied Chemistry, JPAM, International Journal of Current Research, and Journal of Microbial & Biochemical Technology. Alongside her research contributions, Dr. Ibrahim has served in key academic roles, including Lecturer and Department Head at the University of Juba, and currently as Assistant Professor at Al-Baha University. She has participated actively in curriculum development, quality assurance initiatives, and numerous institutional committees. Her professional engagement is further reflected in her memberships in the Biochemistry Society, Environmental Association, Medicinal and Aromatic Plants Society, and Food Science Society. She has attended over 40 conferences and seminars, presented research internationally, and received recognition for her scientific presentations. Dr. Ibrahim’s work reflects a sustained commitment to advancing biochemical research, enhancing educational quality, and applying scientific knowledge to improve health, nutrition, and environmental sustainability.

Profile: Scopus

Featured Publication

  1. Chemical and Nutritional Studies of Neem Plant Leaves Planted in Kingdom of Saudi Arabia and Their Importance in Combating Oxidative Stress in Experimental Animals. (2025). Biomedical and Pharmacology Journal.

 

Weidong Wen | Chemistry | Best Researcher Award

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Dr. Weidong Wen | Chemistry | Best Researcher Award

Anhui University | China

Dr. Weidong Wen is an emerging materials scientist whose research focuses on electrocatalytic nitrate reduction to ammonia, plasma-assisted nanoarray catalyst fabrication, and in-situ electrochemical spectroscopy. His work addresses a globally significant scientific challenge: developing sustainable, energy-efficient pathways for ammonia synthesis while contributing to nitrate pollution mitigation. Dr. Wen has established a strong research track record at an early career stage, with multiple publications in high-impact journals such as Advanced Functional Materials and Angewandte Chemie International Edition, where he has served as both first and contributing author. His studies on metastable copper phases, electrolyte microenvironment modulation, and atomically dispersed active sites have expanded fundamental understanding of catalytic mechanisms and enabled the design of high-performance electrocatalysts for selective ammonia production. Collectively, his publications have garnered strong visibility in the materials and electrochemistry communities, reflecting the relevance and novelty of his contributions. Dr. Wen’s academic training includes rigorous research experience across institutions in China and Germany, where he collaborated with interdisciplinary teams and contributed to joint Ph.D. research efforts in solid-state physics and materials engineering. These collaborations have strengthened his expertise in advanced characterization techniques and provided an international dimension to his scientific development. His work has also resulted in impactful insights with potential societal benefits, including pathways to cleaner fertilizer production, reduction of industrial energy consumption, and environmental remediation through nitrate conversion technologies. Throughout his academic career, Dr. Wen has earned multiple institutional scholarships in recognition of his academic excellence, research productivity, and commitment to scientific advancement. With a growing publication record, strong methodological skills, and a clear focus on addressing environmentally relevant challenges, Dr. Wen is positioned to make sustained and influential contributions to materials science, catalysis, and sustainable chemical engineering. His trajectory reflects a promising future as a researcher capable of driving innovations with both scientific and societal relevance.

Profile: Scopus

Featured Publications

  1. Wen, W., Yan, P., Sun, W., Zhou, Y., & Yu, X.-Y. (2023). Metastable phase Cu with optimized local electronic state for efficient electrocatalytic production of ammonia from nitrate. Advanced Functional Materials, 33, 2212236.
  2. Wen, W., Fang, S., Zhou, Y., Zhao, Y., Li, P., & Yu, X.-Y. (2024). Modulating the electrolyte microenvironment in electrical double layer for boosting electrocatalytic nitrate reduction to ammonia. Angewandte Chemie International Edition, 63, e202408382.
  3. Wang, Y., Zhang, W., Wen, W., Yu, X., Du, Y., Ni, K., Zhu, Y., & Zhu, M. (2023). Atomically dispersed unsaturated Cu-N3 sites on high-curvature hierarchically porous carbon nanotube for synergistic enhanced nitrate electroreduction to ammonia. Advanced Functional Materials, 33, 2302651.

Mei-Shan Li | Chemistry | Best Researcher Award

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Ms. Mei-Shan Li | Chemistry | Best Researcher Award

Guangxi Normal University | China

Ms. Mei-Shan Li is a dedicated Assistant Researcher at the College of Chemistry and Pharmacy, Guangxi Normal University, China. Her research primarily focuses on organic chemistry, natural product chemistry, and medicinal chemistry, with a particular emphasis on the discovery, structural elucidation, and pharmacological evaluation of bioactive compounds derived from traditional medicinal plants. She has contributed significantly to the exploration of alkaloids, terpenoids, and lignans, elucidating their structural diversity and biological potential in combating cancer, viral infections, and inflammatory diseases. With 18 scientific publications, 121 citations, and an h-index of 7, Ms. Li has established herself as a promising early-career researcher in natural product-based drug discovery. Her works have been published in reputable journals such as Phytomedicine, Fitoterapia, Bioorganic & Medicinal Chemistry, and Chemistry & Biodiversity, where she has often served as a co-first or co-corresponding author, underscoring her leadership and technical expertise. Her studies have provided critical insights into TRPV1 inhibitors, novel anticancer agents, and autophagy-related molecular mechanisms, bridging the gap between traditional herbal medicine and modern pharmacology. Beyond academic publications, Ms. Li has co-invented several national patents in China, covering innovative alkaloid derivatives, sesquiterpenoids, and bioactive extraction methods, which showcase her translational approach from bench research to potential industrial applications. She has participated in multiple National Natural Science Foundation of China (NSFC) and regional research projects, focusing on the pharmacological basis of natural compounds and their therapeutic mechanisms in disease models. Through close collaboration with multidisciplinary teams, Ms. Li’s research contributes to drug discovery, public health improvement, and the scientific validation of traditional Chinese medicines. Her work not only enhances the understanding of medicinal plant chemistry but also promotes the sustainable utilization of natural resources for developing novel therapeutic agents. Ms. Mei-Shan Li continues to advance the frontiers of natural product chemistry with a vision to integrate innovation, sustainability, and societal benefit in her scientific pursuits.

Profile: Scopus

Featured Publications

Fan, C.-W., Tang, J., Jiang, J.-C., Zhou, M.-M., Li, M.-S., & Wang, H.-S. (2022). Pentagalloylglucose suppresses the growth and migration of human nasopharyngeal cancer cells via the GSK3β/β-catenin pathway in vitro and in vivo. Phytomedicine, 102, 154192.

Luo, L., Luo, J.-Z., Fan, C.-W., Song, X.-X., Wang, C.-Y., Tang, D.-M., Sun, W.-T., Fan, C.-W., Li, M.-S., & Wang, H.-S. (2024). Alkaloids from Corydalis saxicola and their antiproliferative activity against cancer cells. Fitoterapia, 173, 105791.

Luo, J.-Z., Li, M.-S., Song, X.-X., Fang, Y.-L., Mo, H.-N., Jiang, J.-C., Zhao, H.-Y., & Wang, H.-S. (2022). New alkaloids and their in vitro antitumor activity of Corydalis balansae. Fitoterapia, 162, 105289.

Qin, F., Li, M.-S., Li, J.-J., Wang, Y., Wang, K., Zhou, J.-Y., Liang, D., & Wang, H.-S. (2022). Four new sesquiterpenoids from Zanthoxylum nitidum. Chemistry & Biodiversity, 19(7), e202200176.

Fan, C.-W., Li, M.-S., Song, X.-X., Luo, L., Jiang, J.-C., Luo, J.-Z., & Wang, H.-S. (2023). Discovery of novel 2-oximino-2-indolylacetamide derivatives as potent anticancer agents capable of inducing cell autophagy and ferroptosis. Bioorganic & Medicinal Chemistry, 80, 117176.

Yumiko Nakajima | Chemistry | Best Research Article Award

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Prof. Yumiko Nakajima | Chemistry | Best Research Article Award

Institute of Science Tokyo, Japan

Professor Yumiko Nakajima is a distinguished chemist and a leading figure in the field of organometallic catalysis and precision synthesis, currently serving as Professor at the Institute of Science Tokyo. She earned both her Bachelor of Science (2000) and Ph.D. (2005) from the Tokyo Institute of Technology, establishing a strong academic foundation in coordination and catalytic chemistry. Her professional journey reflects an impressive trajectory through top-tier institutions — beginning as a Postdoctoral Fellow (Humboldt Fellow) at RWTH Aachen University, Germany (2005–2007), followed by appointments as Special Postdoctoral Researcher at RIKEN (2007–2008), Assistant Professor at Kyoto University (2008–2013), and progressive leadership roles at the National Institute of Advanced Industrial Science and Technology (AIST) as Senior Researcher (2013–2017) and Team Leader (2017–2023) before assuming her current professorship in 2024. Her research interests lie in the design and mechanistic understanding of transition-metal-catalyzed reactions, sustainable synthetic processes, and chemical recycling, with a particular focus on Si–Cl bond activation, hydrogenolysis, and phosphorus compound transformation for green chemistry applications. Prof. Nakajima’s research skills span catalyst design, organometallic synthesis, reaction kinetics, and computational chemistry collaboration, enabling her to pioneer innovative catalytic systems that promote environmental sustainability. She has published extensively with 88 peer-reviewed papers, accumulating 2,503 citations and an h-index of 27, including influential works in JACS Au, Angewandte Chemie, ACS Catalysis, and Chemical Communications. Her outstanding contributions have earned her prestigious honors such as the Synthetic Organic Chemistry Award (Japan, 2024) and the KCS Award in Chemical Technology (2022). In conclusion, Professor Nakajima stands out as a visionary scientist whose research leadership, international collaborations, and commitment to advancing sustainable catalysis continue to shape the future of chemical innovation and inspire the next generation of researchers globally.

Profiles: Scopus | ORCID

Featured Publications

Naganawa, Y., Fujita, A., Sakamoto, K., Tanaka, S., Sato, K., & Nakajima, Y. (2023). Borane-protecting strategy for hydrosilylation of phosphorus-containing olefins. ACS Omega, 8, Article e2C07161.

Minami, Y., Matsuyama, N., Takeichi, Y., Watanabe, R., Mathew, S., & Nakajima, Y. (2023). Depolymerization of robust polyetheretherketone to regenerate monomer units using sulfur reagents. Communications Chemistry, 6(1), Article 8148.

Mathew, S., Naganawa, Y., Jiang, F., Wischert, R., Streiff, S., Metivier, P., & Nakajima, Y. (2023). One-pot synthesis of polymers containing P–C bonds in the main chain. Macromolecular Rapid Communications, 44(6), Article 2200921. https://doi.org/10.1002/marc.202200921

Kameo, H., Tanaka, Y., Shimoyama, Y., Izumi, D., Matsuzaka, H., Nakajima, Y., Lavedan, P., Le Gac, A., & Bourissou, D. (2023). Square-planar anionic Pt(0) complexes. Angewandte Chemie International Edition, 62(25), Article e202301509.

Tanaka, S., Nakajima, Y., Ogawa, A., Kuragano, T., Kon, Y., Tamura, M., Sato, K., & Coperet, C. (2022). DNP NMR spectroscopy enabled direct characterization of polystyrene-supported catalyst species for synthesis of glycidyl esters by transesterification. Chemical Science, 13(10), 274–282.

Professor Yumiko Nakajima’s pioneering research in organometallic catalysis and precision synthesis drives transformative advancements in green chemistry and sustainable manufacturing. Her innovative catalytic systems not only deepen scientific understanding of chemical transformations but also contribute to environmental preservation, industrial efficiency, and global progress toward cleaner, resource-efficient technologies.

Rahul Kadu | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Rahul Kadu | Chemistry | Best Researcher Award

MIT Art, Design and Technology University, Pune, India

Assoc. Prof. Dr. Rahul Kadu is a distinguished academic and researcher in the field of chemistry, currently serving as Associate Professor in the Department of Applied Science and Humanities, School of Engineering & Sciences, MIT Art, Design & Technology University, Pune, India. He earned his Ph.D. in Chemistry in 2015 from The Maharaja Sayajirao University of Baroda, Gujarat, under the guidance of Dr. Vinay Kumar Singh, with his doctoral research focusing on Metal Directed Self-Assembled Structures: Synthesis, Characterization, and Crystal Studies, and subsequently pursued a prestigious post-doctoral fellowship at IISER Bhopal (2015–2017) under Dr. Sangit Kumar, specializing in organoselenium chemistry and antioxidant research. His professional career spans more than a decade, including earlier roles as Assistant Professor and Board of Studies Member, where he contributed significantly to curriculum design and academic leadership. Dr. Kadu’s research interests lie in organometallic, supramolecular, material, and medicinal chemistry, with a focus on macrocyclic coordination compounds, catalytic processes, and potential therapeutic applications. He possesses strong research skills in synthetic chemistry, crystallography, supramolecular assembly, computational chemistry, and analytical techniques including NMR, HPLC, UV-visible spectroscopy, and single-crystal XRD. With over 20 indexed publications, 487 citations, and an h-index of 13, he has published extensively in high-impact Q1 and Q2 journals such as Journal of Organic Chemistry, Dalton Transactions, RSC Advances, and Journal of Molecular Structure. His excellence has been recognized through multiple honors, including the InSc Young Researcher Award (2023), UGC-JRF and SRF Fellowships, and Best Poster Awards at national conferences. As a Ph.

Profiles: Scopus | ORCID | Google Scholar | LinkedIn | ResearchGate

Featured Publications

  1. Jana, S., Verma, A., Kadu, R., & Kumar, S. (2017). Visible-light-induced oxidant and metal-free dehydrogenative cascade trifluoromethylation and oxidation of 1,6-enynes with water. Chemical Science, 8(9), 6633–6644.

  2. Kadu, R., Roy, H., & Singh, V. K. (2015). Diphenyltin (IV) dithiocarbamate macrocyclic scaffolds as potent apoptosis inducers for human cancer HEP 3B and IMR 32 cells: Synthesis, spectral characterization, density … Applied Organometallic Chemistry, 29(11), 746–755.

  3. Singh, V. K., Kadu, R., Roy, H., Raghavaiah, P., & Mobin, S. M. (2016). Phenolate based metallomacrocyclic xanthate complexes of Co II/Cu II and their exclusive deployment in [2:2] binuclear N,O-Schiff base macrocycle formation and in vitro … Dalton Transactions, 45(4), 1443–1454.

  4. Bhandary, S., Sirohiwal, A., Kadu, R., Kumar, S., & Chopra, D. (2018). Dispersion stabilized Se/Te··· π double chalcogen bonding synthons in in situ cryocrystallized divalent organochalcogen liquids. Crystal Growth & Design, 18(7), 3734–3739.

  5. Batabyal, M., Upadhyay, A., Kadu, R., Birudukota, N. C., Chopra, D., & Kumar, S. (2022). Tetravalent spiroselenurane catalysts: Intramolecular Se···N chalcogen bond-driven catalytic disproportionation of H2O2 to H2O and O2 and activation of I2 and NBS. Inorganic Chemistry, 61(23), 8729–8745.

Beril Anilanmert | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Beril Anilanmert | Chemistry | Best Researcher Award

Istanbul University-Cerrahpasa Institute of Forensic Sciences and Legal Medicine, Turkey

Assoc. Prof. Dr. Beril Anilanmert is a distinguished scholar in forensic toxicology and analytical chemistry, currently serving at the istanbul University – Cerrahpasa, Institute of Forensic Sciences, Turkey. She earned dual doctoral degrees, a Ph.D. in Analytical Chemistry from Marmara University and a Ph.D. in Forensic Sciences from Istanbul University, equipping her with rare interdisciplinary expertise that bridges the fields of chemistry, pharmacology, and forensic medicine. With over two decades of academic and research experience, she has made significant contributions to the detection and validation of toxic substances, explosive residues, and drugs of abuse using advanced analytical methodologies such as LC-MS/MS and chromatographic techniques. Her professional work extends to drug-facilitated crime investigations, forensic pharmacovigilance, and validation studies in line with ISO/IEC 17025 standards, and she has also provided specialized training courses in these areas. Her research interests focus on toxicological analysis, forensic pharmacology, psychoactive substances, and the development of reliable detection systems to support both health and justice. Demonstrating strong research skills in chromatographic separation, mass spectrometry, bioanalytical method development, and toxicological validation, she has published extensively in SCI-Expanded journals and contributed to internationally recognized books and book chapters with publishers such as CRC, Bentham, and Intech. Dr. Anılanmert has received several awards and honors from Elsevier, Bentham Science, TÜBİTAK, and Istanbul University for her impactful research and peer-review activities, alongside invitations to serve on scientific juries and conference committees. With 24 indexed documents, nearly 200 citations, and an h-index of 8, her scholarly influence continues to grow, reinforced by her leadership in funded projects and international collaborations. In conclusion, Assoc. Prof. Dr. Beril Anılanmert stands out as an accomplished researcher whose interdisciplinary expertise, innovative methodologies, and academic contributions have advanced forensic science, strengthened public health and safety, and positioned her as a leader with significant potential for further international impact.

Profile: Scopus | ORCID

Featured Publications

Electrophoresis. (2025). From one strand dyed/undyed hair with/without root to fast and successful STR profiling and evaluation with principal component analysis. Electrophoresis. Advance online publication.

Pakistan Journal of Pharmaceutical Sciences. (2023). Urgent first-step screening method for ketamine, phenobarbital, zopiclone, zolpidem, phenytoin and thiopental in adulterated soft drink. Pakistan Journal of Pharmaceutical Sciences. Advance online publication.

Chuan-Jun Wang | Material Chemistry | Best Researcher Award

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Prof. Chuan-Jun Wang | Material Chemistry | Best Researcher Award

Professor from Shandong Agricultural University, China

Professor Wang Chuanjun is a distinguished academic and researcher currently serving at Shandong Agricultural University. With a deep-rooted background in chemistry and catalysis, his work primarily focuses on advancing sustainable energy solutions through photo- and electrocatalytic processes. Prof. Wang’s scholarly journey is marked by excellence and international collaboration, having undergone postdoctoral research at the Institute of Chemical Research of Catalonia (ICIQ) in Spain—a globally recognized hub for chemical innovation. His contributions span green catalysis, nitrogen conversion, and biomass valorization, all critical for a low-carbon future. He has published over 30 research articles in high-impact journals indexed in SCI and Scopus and has secured 6 patents, reflecting a strong translational aspect to his research. With a citation index exceeding 1800, his work is widely acknowledged by peers in the scientific community. Prof. Wang leads national and provincial projects focused on catalytic ammonia synthesis, showcasing his capacity to spearhead innovative and impactful research. His portfolio also includes participation in international collaborations and consultancies, adding depth to his academic profile. Passionate about scientific development and knowledge dissemination, Prof. Wang continues to drive meaningful progress in sustainable technologies and energy conversion systems.

Professional Profile

Education

Professor Wang Chuanjun’s academic foundation reflects a consistent pursuit of excellence in chemistry and material science. He began his undergraduate studies at Shandong Agricultural University (2006–2010), majoring in chemistry, where he laid the groundwork for his future in catalysis and green technology. He then advanced to the Technical Institute of Physics and Chemistry at the Chinese Academy of Sciences (TIPC-CAS), completing both his Master’s (2010–2012) and Doctoral (2012–2015) degrees. At TIPC-CAS, he specialized in electrochemical systems and advanced materials, gaining hands-on experience in catalytic reactions, particularly those involving nitrogen and hydrogen transformations. Eager to broaden his research perspective, Prof. Wang undertook a prestigious postdoctoral fellowship (2015–2018) at the Institut Català d’Investigació Química (ICIQ) in Tarragona, Spain. During this time, he engaged with world-leading researchers and technologies, deepening his expertise in molecular catalysis and photoinduced reactions. This international exposure has significantly influenced his methodological approach and innovation in his later projects. His academic path has been integral to shaping his current focus areas, including green catalysis, nanomaterial development, and electrocatalytic processes for sustainable energy solutions.

Professional Experience

Prof. Wang Chuanjun’s professional career is a testament to his dedication to scientific research and education. He has been a full-time Professor at Shandong Agricultural University since January 2019, where he teaches, supervises postgraduate research, and leads several national and provincial scientific projects. His current position allows him to explore catalytic solutions for global challenges, such as clean ammonia synthesis and nitrogen fixation, by integrating metal-based nanomaterials and advanced light-driven systems. Prior to this role, he served as a postdoctoral researcher at ICIQ, Spain (2015–2018), where he worked on photochemical and organometallic catalysis, gaining invaluable international exposure and enhancing his collaborative research skills. His time at ICIQ built a strong foundation in synthetic methodology and catalysis that he has since translated into practical, scalable energy applications in China. Earlier, as a graduate and doctoral student at the Technical Institute of Physics and Chemistry (TIPC-CAS), he conducted pioneering studies on electrochemical materials and reaction mechanisms. With experience that spans both academic institutions and cross-border scientific initiatives, Prof. Wang has developed a dynamic professional portfolio, combining teaching excellence with real-world research impact in energy science and sustainable chemistry.

Research Interests

Prof. Wang Chuanjun’s research interests are centered on catalysis-driven solutions for sustainable energy and environmental systems. His work focuses on the synthesis and application of nanostructured metal phosphides and transition metal complexes for photo- and electrocatalytic nitrogen conversion, aiming to produce ammonia and hydrogen under mild conditions. He is particularly interested in green catalysis strategies that mimic natural enzymatic processes, especially nitrogenase-like systems that enable low-energy nitrogen fixation. His work also explores biomass conversion, utilizing renewable sources for energy and chemical production. A core area of his research is the design of photocatalytic systems for enhanced solar-driven reactions, integrating light harvesting with catalytic processes for higher efficiency and selectivity. Additionally, Prof. Wang investigates the fundamental kinetics and mechanistic pathways involved in these transformations, leveraging spectroscopy and electrochemical analysis to refine catalytic designs. Through collaborations and interdisciplinary approaches, he aims to bridge material synthesis, reaction engineering, and environmental science. His research not only contributes to academic understanding but also has potential implications for industrial ammonia production and sustainable agricultural practices.

Research Skills

Prof. Wang Chuanjun possesses a diverse and robust set of research skills that span synthetic chemistry, catalysis, material characterization, and electrochemical analysis. He is highly proficient in the synthesis of nanostructured metal phosphides, transition metal complexes, and functionalized photocatalysts, which are central to his work on nitrogen fixation and hydrogen evolution. His expertise includes the use of advanced characterization techniques such as X-ray diffraction (XRD), scanning and transmission electron microscopy (SEM/TEM), and spectroscopy (UV-Vis, FTIR, NMR), which he employs to elucidate material structures and reaction mechanisms. In electrochemistry, he is adept in cyclic voltammetry, chronoamperometry, and electrochemical impedance spectroscopy, allowing detailed insights into charge transfer processes and catalytic activity. His skills also encompass computational modeling and mechanistic studies to simulate catalytic pathways and optimize energy efficiency. Prof. Wang’s research is strengthened by his ability to integrate lab-scale findings with scalable design, often considering industrial relevance and sustainability. His multidisciplinary competencies make him a versatile and forward-thinking scientist capable of addressing complex challenges in green chemistry and renewable energy technologies.

Awards and Honors

Throughout his career, Prof. Wang Chuanjun has been recognized for his contributions to the field of catalysis and green chemistry. He has received funding and honors from prominent institutions, including the Youth Project of the Natural Science Foundation of Shandong Province, where he serves as the project lead on electrocatalytic nitrate/nitrite reduction to ammonia. Additionally, he was awarded the Shandong Provincial High-level Foreign Experts Project to explore visible-light-driven synthesis of nanomaterials for nitrogen conversion—a prestigious recognition of his innovative research in sustainable materials. He also participated in the Shandong University Youth Talent Promotion Project on green catalysis and synthesis, further validating his expertise in eco-friendly chemical processes. Prof. Wang has published 33 papers in international peer-reviewed journals and has a citation index of over 1800, reflecting his scientific impact. He holds six patents and has provided consultancy services to industry, demonstrating the practical applicability of his work. These accolades underscore his leadership in the field and his commitment to developing next-generation technologies for energy and environmental sustainability.

Conclusion

Prof. Wang Chuanjun is an accomplished researcher whose work exemplifies innovation, sustainability, and academic rigor in the field of chemical catalysis. His academic background, international research experience, and ongoing leadership in multiple funded projects position him as a valuable contributor to the scientific community. With research spanning nitrogen conversion, biomass utilization, and green energy, Prof. Wang’s efforts address urgent global challenges in clean energy and environmental stewardship. His skillset integrates material science, electrochemical analysis, and catalytic system design, bridging fundamental research with real-world impact. The high citation index and patent record highlight both scholarly influence and practical relevance. While expanding editorial involvement and global scientific engagement could enhance his profile further, his current contributions already make him a strong candidate for high-level recognition. His leadership in provincial and international projects, combined with a commitment to academic excellence and interdisciplinary research, affirms his suitability for the Best Researcher Award. Prof. Wang represents the next generation of chemists driving transformative advances in sustainable science.

Publications Top Notes

  1. Hyaluronic acid-functionalized nanoarmor enhances the stable colonization ability of Paenibacillus polymyxa JF_P68 and boosts its biological control efficacy against pear anthracnose
    Journal: Pest Management Science, 2025
    Authors: Du, J.; Li, H.; Wu, L.; Liu, Y.; Sun, F.; Tian, X.; Lu, N.; Jiao, Y.; Liu, S.; Zhao, X.; Wang, C.-J.

  2. Synergistic Pd-CoFe sites for efficient and selective electrooxidation of glycerol to glyceric acid coupled with H₂ evolution
    Journal: Chemical Engineering Journal, 2025
    Authors: Zhou, J.; Shi, R.; Gao, Q.; Liu, F.; Chen, Y.; Chen, J.; Guo, Z.; Tse, E.C.M.; Zhao, X.; Wang, C.-J.

  3. Facile construction of CuFe-based metal phosphides for synergistic NOₓ⁻ reduction to NH₃ and Zn–nitrite batteries in electrochemical cell
    Journal: Small, 2024
    Authors: Wang, G.; Wang, C.; Liu, S.; Zhao, X.; Xu, J.; Tian, X.; Li, Q.; Waterhouse, G.I.N.

  4. Methane sulfonic acid-assisted synthesis of g-C₃N₄/Ni₂P/Ni foam: Efficient, stable and recyclable for photocatalytic nitrogen fixation under visible light
    Journal: Journal of Environmental Chemical Engineering, 2024
    Authors: Gao, X.; Zhang, B.; Cao, L.; Liu, F.; Fan, H.; Wang, C.; Xu, J.

  5. Visible light-driven synthesis of PtCu alloy nanodendrites for electrocatalytic nitrogen-conversion reactions
    Journal: Advanced Sustainable Systems, 2024
    Authors: Wang, G.; Wang, C.; Zhao, X.; Liu, S.; Zhang, Y.; Lv, X.; Xu, J.; Waterhouse, G.I.N.

  6. Glufosinate ammonium-loaded halloysite nanotubes for slow-release weeding polymer mulch films
    Journal: ACS Applied Nano Materials, 2023
    Authors: Jia, X.; Zhang, K.; Wang, C.; You, X.; Yang, S.; Wang, J.; Zhang, B.; Xu, J.; Yan, Y.; Wang, Y.

  7. CoP nanowires on carbon cloth for electrocatalytic NOₓ⁻ reduction to ammonia
    Journal: Journal of Electroanalytical Chemistry, 2022
    Authors: Zhang, H.; Wang, G.; Wang, C.; Liu, Y.; Yang, Y.; Jiang, W.; Fu, L.; Xu, J.

  8. Electrochemical ammonia synthesis from nitrite assisted by in situ generated hydrogen atoms on a nickel phosphide catalyst
    Journal: Chemical Communications, 2021
    Authors: Yang, X.; Liu, F.; Chen, Y.; Kang, L.; Wang, C.-J.

 

Theoneste Muyizere | Chemistry | Best Researcher Award

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Mr. Theoneste Muyizere | Chemistry | Best Researcher Award

Doctoral Researcher from National Center for Nanoscience and Technology, China

Theoneste Muyizere is a dedicated Rwandan researcher specializing in Nanobiotechnology and Nanomedicine, with a strong foundation in analytical chemistry and bioengineering. Currently pursuing his Ph.D. at the University of Chinese Academy of Sciences under the ANSO Fellowship, Theoneste’s work integrates cutting-edge DNA-based nanostructures for targeted drug delivery, gene therapy, and molecular imaging. His ambition to become a leading nanobiotechnologist is reflected in both the depth and breadth of his interdisciplinary research. He is the first author and corresponding author of impactful publications, including in Advanced Nanobiomed Research and Analytical Methods. He actively participates in international conferences such as ChinaNANO and the African Materials Research Society (AMRS), often receiving awards for his innovative poster presentations. His contributions extend beyond academia through co-founding Afro Nanotechnology Ltd., aiming to elevate research capacity in Africa. Theoneste’s work blends theoretical knowledge, experimental precision, and translational potential, with an emphasis on next-generation nanomedicine solutions. Fluent in English, French, Kinyarwanda, and Chinese, and proficient with numerous lab techniques and software tools, he is well-positioned as a future leader in scientific innovation. With a strong commitment to education, research excellence, and technological advancement, Theoneste represents a new generation of scientists pushing the boundaries of nanoscience for public health impact.

Professional Profile

Education

Theoneste Muyizere holds a comprehensive academic background bridging chemistry, biomedical sciences, and nanotechnology. He is currently pursuing a Ph.D. in Nanotechnology–Chemistry at the University of Chinese Academy of Sciences, focusing on DNA-based nanomedicine for targeted imaging and therapy. Prior to this, he obtained a Master’s degree in Applied Analytical Chemistry from Xi’an Shiyou University, China, where he developed proficiency in mass spectrometry and polymer chemistry. He further strengthened his technical expertise through a certificate program in Biomedical Engineering at Northwestern Polytechnical University, emphasizing his interdisciplinary learning. His undergraduate degree in Chemistry was completed at the University of Rwanda, and his high school studies culminated with an A’ Level certificate in Biology and Chemistry from College APEGIRUBUKI. His academic path is characterized by numerous competitive scholarships, including the Chinese Government Scholarship and the Rwandan Government REB funding. Through these programs, he acquired a solid theoretical and practical understanding of analytical techniques, organic synthesis, nanomaterials, and biotechnology. His coursework and laboratory training cover a wide array of subjects such as polymer chemistry, advanced organic and inorganic chemistry, biomaterials, drug delivery systems, and modern analytical instrumentation. This multidisciplinary education positions Theoneste for a distinguished research career at the interface of chemistry, biology, and nanomedicine.

Professional Experience

Theoneste Muyizere brings a diverse portfolio of professional experiences across academia, research, and applied science. Currently, he serves as a Laboratory Assistant and Technician at the CAS Key Laboratory for Biomedical Effects of Nanomaterials and Nanosafety, where he assists in nanomedicine-related experiments and technical development. He is also the Co-founder of Afro Nanotechnology Ltd., demonstrating entrepreneurial engagement in applying scientific knowledge to African development. Previously, he worked as an Assistant Researcher at Xi’an Shiyou University and Northwestern Polytechnical University, contributing to polymer analysis, bioimaging tools, and nanomaterials synthesis. Earlier in his career, Theoneste taught high school chemistry at G.S. RUBAGABAGA and G.S. RWAMIKO, building his foundation in science communication and pedagogy. He also undertook a professional internship at Xi’an Yidao Yueda Petroleum Technology Co. Ltd, working in the Analytical Testing Laboratory Division. These experiences have honed his technical, instructional, and problem-solving capabilities. Across his roles, he has been involved in various international workshops, conferences, and hands-on trainings related to biosafety, medical technology, and advanced drug delivery systems. Theoneste’s combined experience in teaching, research, lab management, and international collaboration makes him a dynamic professional contributing meaningfully to scientific advancement and practical implementation in biotechnology and nanomedicine.

Research Interests

Theoneste Muyizere’s research interests lie at the intersection of nanobiotechnology, analytical chemistry, and biomedicine, with a strong emphasis on DNA-based nanostructures for health applications. His core focus is the development of intelligent, stimuli-responsive nanodevices for targeted drug delivery and gene therapy, particularly in cancer treatment. He is also deeply engaged in engineering nano-bio interfaces that enhance molecular imaging and biomacromolecule sensing. This includes the construction of DNAzyme nanocircuits and nanorobots for real-time imaging and therapy monitoring. His interests extend to mass spectrometry techniques for analyzing polymers and biomolecules, integrating analytical rigor with biomedical relevance. Theoneste is passionate about translational research, aiming to convert lab-scale innovations into clinical and diagnostic tools. His broader goals include advancing Africa’s capacity in nanotechnology and biomedical sciences. As a participant in international projects and conferences, he continually refines his knowledge in molecular sensing, nanomedicine, regenerative therapy, and advanced analytical methods. His research is inherently interdisciplinary, drawing from chemistry, biology, and engineering to address complex problems in healthcare. By combining bioengineering principles with nano-scale materials design, Theoneste seeks to push the frontiers of personalized medicine, particularly through the synthesis and application of biomaterials that can function in vivo for precision diagnostics and therapy.

Research Skills

Theoneste Muyizere possesses an extensive and versatile set of research skills that position him as an advanced researcher in nanobiotechnology and analytical chemistry. He is proficient in the synthesis of nanomaterials, including DNA nanostructures, liposomes, and hydrogels, aimed at developing targeted drug delivery systems and molecular imaging agents. His expertise in cell culture techniques—including 2D, 3D, and organoid systems—complements his work in in vitro cytotoxicity, cell viability, and apoptosis assays. He is highly experienced in confocal laser scanning microscopy, flow cytometry, and in vivo imaging modalities such as MRI and fluorescence imaging. Theoneste also demonstrates strong command over analytical instrumentation, particularly in mass spectrometry (ESI, MALDI, PSI), and chromatography methods (HPLC, LC-MS, GC-MS). His knowledge extends to the operation of DLS, XRD, UV-Vis, and atomic force microscopy for nanomaterials characterization. In data analysis and visualization, he utilizes software like OriginPro, XCalibur, ChemDraw, and ImageJ. Additionally, his background in biosensor design, in vivo testing, and functional DNA engineering enables him to bridge analytical precision with clinical relevance. His ability to design, conduct, and analyze experiments independently, alongside his familiarity with ethical and safety regulations, makes him a well-rounded and capable scientific researcher.

Awards and Honors

Theoneste Muyizere has received multiple awards and honors recognizing his research excellence, academic performance, and leadership potential. Most notably, he is a recipient of the ANSO Fellowship for Young Talents (2020–2024), a prestigious program by the Chinese Academy of Sciences that supports emerging researchers from developing countries. His academic presentations have been awarded across various forums, including the “Excellent Poster Prize” at the 2024 Academic Forum on Artificial Intelligence and Frontier Nanotechnology, and the “NanoStar Poster Award” at a seminar hosted by the National Center for Nanoscience and Technology. He also received a Chinese Government Scholarship for his Master’s studies and a Rwandan Government REB Scholarship for his undergraduate education. In addition to academic awards, Theoneste has been recognized for his active participation in organizing committees, including for the African Materials Research Society Conference. His recognition extends to being selected as a visiting scholar at Northwestern Polytechnical University. These honors reflect not only his academic and scientific aptitude but also his initiative and global engagement. Through these accolades, Theoneste has demonstrated excellence in research communication, innovation, and international collaboration, solidifying his reputation as a promising leader in nanomedicine and scientific research.

Conclusion

Theoneste Muyizere exemplifies the qualities of a modern interdisciplinary researcher with a strong foundation in chemistry, biology, and nanotechnology. His academic journey, professional experience, and research output reflect a commitment to innovation, international collaboration, and practical impact. With a focus on developing next-generation DNA-based nanomedicines for diagnostics and therapy, he addresses some of the most pressing challenges in health and disease treatment. His technical proficiency across analytical instruments, in vivo experiments, and molecular imaging, coupled with his communication skills and multilingual fluency, make him an asset to both research institutions and global scientific networks. As a co-founder of Afro Nanotechnology Ltd., he also seeks to empower African scientific development. Theoneste’s accomplishments in publishing, presenting, and contributing to the scientific community highlight his potential for long-term leadership in nanobiotechnology. Recognized with awards and prestigious fellowships, he stands out as a dedicated scholar whose work is driven by both scientific curiosity and societal relevance. In conclusion, Theoneste Muyizere is a deserving candidate for the Best Researcher Award, and a role model for young scientists aspiring to merge academic excellence with meaningful innovation.

Publications Top Notes

  1. Engineered Nano–Bio Interfaces for Stem Cell Therapy
    🗞 Journal: Precision Chemistry
    📅 Published: August 28, 2023
    👥 Authors: Arsalan Umer, Muhammad Daniyal Ghouri, Theoneste Muyizere, Raja Muhammad Aqib, Abdul Muhaymin, Rong Cai, Chunying Chen

  2. Metal Salt Assisted Electrospray Ionization Mass Spectrometry for the Soft Ionization of GAP Polymers in Negative Ion Mode
    🗞 Journal: The Analyst
    📅 Published: 2020
    👥 Author: Theoneste Muyizere

  3. Polystyrene-Impregnated Paper Substrates for Direct Mass Spectrometric Analysis of Proteins and Peptides in Complex Matrices
    🗞 Journal: Analytical Methods
    📅 Published: 2018
    👥 Author: Theoneste Muyizere

  4. Development of Paper Substrate for Paper Spray MS in High-Sensitivity Analysis of Biological Samples
    🗞 Journal: Bioanalysis
    📅 Published: December 2018
    👥 Author: Theoneste Muyizere

 

Fatemeh Mohammadpour | Biophysical Chemistry | Best Researcher Award

Published on by WSA Awards

Assist. Prof. Dr. Fatemeh Mohammadpour | Biophysical Chemistry | Best Researcher Award

University Assistant Professor and Researcher from Farhangian University, Iran

Dr. Fatemeh Mohammadpour is a dedicated researcher and academic specializing in condensed matter physics, nanotechnology, and molecular dynamics simulations. Currently serving as an Assistant Professor at Farhangian University in Iran, she has developed a strong foundation in both theoretical and experimental physics. Her research integrates cutting-edge materials science with applications in energy conversion and biomedicine, particularly focusing on dye-sensitized solar cells, TiO₂ nanotubes, deep eutectic solvents, and targeted drug delivery. With a Ph.D. from Shiraz University and a postdoctoral fellowship under her belt, Dr. Mohammadpour has also gained international experience as a visiting researcher in Germany. Her work is known for its interdisciplinary approach, bridging physics, chemistry, and biomedical engineering. Dr. Mohammadpour has authored multiple peer-reviewed articles and has been an invited speaker at international conferences. Her contributions to science are evident in her comprehensive research output and her ability to translate theoretical insights into practical technologies. Beyond research, she contributes to education through teaching undergraduate courses in physics. Dr. Mohammadpour exemplifies academic commitment and scientific innovation, and her profile reflects a researcher poised for further leadership and impact in her field.

Professional Profile

Education

Dr. Fatemeh Mohammadpour holds a Ph.D. in Physics (Condensed Matter) from Shiraz University, Iran, where she conducted research on the optimization of TiO₂ and ZnO nanostructures to enhance the efficiency of dye-sensitized solar cells. Her doctoral work was supervised by Prof. Dr. Mahmood Moradi and completed between 2010 and 2015. Prior to her Ph.D., she earned a Master’s degree in Physics (Condensed Matter) from the same university, working under Dr. Afshin Montakhab. Her master’s thesis focused on finite size scaling in self-organized criticality, providing her with a strong theoretical foundation in statistical mechanics and complex systems. She began her academic journey with a Bachelor’s degree in Physics from Zanjan University, Iran, completed in 2004. Throughout her academic training, Dr. Mohammadpour demonstrated a consistent interest in materials science, nanotechnology, and computational physics. Her educational background is deeply rooted in both experimentation and simulation, enabling her to approach research problems with a holistic and interdisciplinary perspective. The progression of her academic qualifications reflects a solid commitment to scientific advancement and a robust preparation for her roles in research and academia.

Professional Experience

Dr. Fatemeh Mohammadpour has held a range of academic and research positions that reflect her expertise in physics and materials science. Since January 2018, she has served as an Assistant Professor of Physics at Farhangian University, Shiraz Campus, where she teaches undergraduate courses such as Mechanical Physics, Electricity and Magnetism, Thermal Physics, Electromagnetism, and Mathematical Methods in Physics. Prior to this role, she completed a postdoctoral fellowship at Shiraz University between 2016 and 2017 under the supervision of Dr. Amin Reza Zolghadr. Her postdoctoral research focused on the confinement of ionic liquid mixtures between amorphous TiO₂ nanopores, combining simulation and experimental analysis. Dr. Mohammadpour also gained international research experience as a Visiting Researcher at Friedrich Alexander University in Germany, where she collaborated with Prof. Dr. Patrik Schmuki on the synthesis of TiO₂ nanotubes for dye-sensitized solar cells. These professional experiences have equipped her with a wide range of scientific competencies, from advanced materials characterization to international collaboration and multidisciplinary teaching. Her career trajectory underscores a strong combination of research productivity, scientific communication, and academic instruction.

Research Interests

Dr. Mohammadpour’s research interests are both interdisciplinary and application-oriented, encompassing several high-impact areas of materials science and physics. A significant focus of her work lies in the synthesis, characterization, and application of TiO₂ nanotubes, particularly in enhancing the performance of dye-sensitized solar cells (DSSCs). She explores how variations in structural morphology influence photovoltaic efficiency. Another key area of her research is deep eutectic solvents (DES) and their applications in energy storage and biomedical systems. These novel solvents provide eco-friendly and cost-effective alternatives for chemical processes and drug delivery. She is also deeply involved in molecular dynamics simulations, which allow her to model nanoscale interactions in systems such as ionic liquids, drug molecules, and biological membranes. Her studies extend to targeted drug delivery systems, where she investigates the interaction between anticancer drugs and membranes to improve therapeutic efficacy. Overall, Dr. Mohammadpour’s research is aimed at bridging theoretical modeling with experimental validation, offering novel insights into nanotechnology for energy and healthcare solutions. Her ability to integrate multiple disciplines makes her contributions highly relevant in today’s evolving scientific landscape.

Research Skills

Dr. Fatemeh Mohammadpour possesses an extensive suite of research skills that span both computational and experimental methodologies. Her computational expertise includes molecular dynamics simulations, utilizing software like GROMACS, Gaussian 09, VMD, and HyperChem to model complex systems such as drug-membrane interactions and ionic liquid behavior. These simulations allow her to study nanoscale dynamics and optimize materials for targeted applications. On the experimental side, Dr. Mohammadpour is highly proficient in a variety of characterization techniques, including X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), atomic force microscopy (AFM), and UV-Vis spectroscopy. She has also worked extensively with photoluminescence spectroscopy, impedance spectroscopy, and high-performance liquid chromatography (HPLC). Her hands-on experience includes the fabrication of TiO₂ and ZnO nanostructures, anodization techniques, and the development of dye-sensitized solar cells (DSSCs). In addition, she has synthesized ionic liquids and deep eutectic solvents, aligning her lab capabilities with green chemistry principles. This well-rounded research skill set allows her to design, simulate, fabricate, and analyze innovative systems across various scientific disciplines.

Awards and Honors

Dr. Fatemeh Mohammadpour has been recognized for her scientific contributions through invited speaking engagements and conference presentations. She was an invited speaker at the International Virtual Congress on Pediatrics (2021), where she presented her work on using TiO₂ nanotubes as carriers for anticancer drugs like Doxorubicin. In the same year, she was also invited to present at the International Conference on Carbon Chemistry and Materials in Italy, highlighting the role of deep eutectic solvents in dye-sensitized solar cell applications. These honors reflect not only the originality of her research but also its global relevance. In addition to invited talks, she has consistently contributed to both national and international conferences, presenting studies on nanostructures, simulation-based toxicity assessments, and solar energy devices. Though specific awards are not listed in her profile, her repeated invitations to speak at scientific forums and her contributions to high-impact journals suggest she is well-regarded within the academic and research community. Her visibility in interdisciplinary research fields continues to grow, and future recognitions are likely as she advances in her career.

Conclusion

Dr. Fatemeh Mohammadpour is a highly capable and impactful researcher whose work integrates condensed matter physics, nanomaterials, and computational modeling. Her expertise in fabricating and simulating advanced materials like TiO₂ nanotubes and deep eutectic solvents places her at the forefront of innovation in clean energy and drug delivery technologies. With a strong academic foundation and international experience, she has proven herself as a dynamic scientist who effectively combines theory and practice. Her teaching responsibilities further demonstrate her dedication to fostering academic excellence and training the next generation of physicists. Although there is room to expand her international collaborations and citation index, her growing portfolio of publications and invited presentations is commendable. Dr. Mohammadpour’s multidisciplinary skills, research achievements, and academic leadership make her an excellent candidate for recognition through awards such as the Best Researcher Award. Her ongoing work continues to contribute meaningfully to both scientific understanding and real-world technological applications, marking her as a promising figure in the global research landscape.

Publications Top Notes

  1. Boroomand, Samaneh, Delara Mohammad-Aghaie, Fatemeh Mohammadpour
    “Molecular dynamics and DFT analysis of artemisinin solubility in acidic deep eutectic solvents: Implications for cancer drug delivery.”
    Journal: Journal of Molecular Liquids (Accepted)

  2. Boroomand, Samaneh, Delara Mohammad-Aghaie, Fatemeh Mohammadpour
    “Molecular dynamics insight of interaction between Artemisinin and its derivatives and the cancer cell membrane.”
    Journal: Computational and Theoretical Chemistry, 1243, 114997

  3. Amiri, Fatemeh, Mohammad Reza Golsefatan, Fatemeh Mohammadpour, Moslem Amiri Tayyebi
    “Investigating the Influence of the STEM Approach in Elementary Science Textbooks.”
    Journal: Research in Chemistry Education

  4. Mohammadpour, Fatemeh, Mohammad Ebrahimi-Dabbah, Maryam Dashti
    “Evaluation of the effectiveness of inquiry method in improving students’ academic achievement, practical skills, and inference power in chemistry course.”
    Journal: Research in Chemistry Education, 7(2): 72–90

  5. Amiri, Fatemeh, Fatemeh Mohammadpour
    “Temperature Effect on the Hybrid Electron Spin-oscillation Entanglement in an Anisotropic Two-dimensional Quantum Dot.”
    Journal: Iranian Journal of Applied Physics, 14(1): 25–44

  6. Mohammadpour, Fatemeh, Asma Mansouri Najafabadi
    “Comparison of crystalline structure, electron transport properties and efficiency in open and closed bottom titanium dioxide nanotube dye sensitized solar cells.”
    Journal: Nanoscale, 9(4): 63–71

  7. Maryam Heidari Dokoohaki, Fatemeh Mohammadpour, Amin Reza Zolghadr
    “Dye-Sensitized Solar Cells Based on Deep Eutectic Solvent Electrolyte: Insights from Experiment and Simulation.”
    Journal: Journal of Physical Chemistry C, 125, 15155–15165

  8. Sadaf Shirazi-Fard, Fatemeh Mohammadpour, Amin Reza Zolghadr, Axel Klein
    “Encapsulation and Release of Doxorubicin from TiO₂ nanotubes: Experiment, Density Functional Theory Calculations and Molecular Dynamics Simulation.”
    Journal: Journal of Physical Chemistry B, 125, 5549–5558

  9. Maryam Heidari Dokoohaki, Fatemeh Mohammadpour, Amin Reza Zolghadr
    “New Insight into Electrosynthesis of Ordered TiO₂ Nanotubes in EG-Based Electrolytes: Combined Experimental and Computational Assessment.”
    Journal: Physical Chemistry Chemical Physics, 22, 22719–22727

  10. Rokhsareh Khodabandeh, Fatemeh Mohammadpour, Amin Reza Zolghadr, Axel Klein
    “Zn capped Al₂O₃ and TiO₂ nanoporous arrays as pH sensitive drug delivery systems: a combined experimental and simulation study.”
    Journal: New Journal of Chemistry, 44, 16602–16612